Establishing channels between a domain manager and managed nodes

ABSTRACT

A device associated with a network receives a register request from a managed node connected to the network, where the register request requests registration of the managed node. The device also establishes a command channel, for sending one or more commands, with the managed node based on the register request, and establishes a notification channel, for sending one or more notifications, with the managed node based on the register request.

TECHNICAL FIELD

Embodiments described herein relate generally to communication systems,and, more particularly, to establishing channels between a domainmanager and managed nodes in a telecommunication system.

BACKGROUND

A self-organized network (SON) may provide mechanisms forself-configuration, self-discovery, and self-organization.Self-configuration and self-discovery enable network devices (e.g.,managed nodes) of the SON to be transparent to ordinary users.Self-organization ensures robustness of the SON during dynamic networktopology changes and link breakages. It also ensures optimal andefficient bandwidth utilization.

The SON operational and maintenance (OAM) architecture includes a domainmanager and its managed nodes, an enterprise management system (EMS),etc. A managed node represents a radio base station (e.g., of a wirelessnetwork), home devices (e.g., Internet routers, television set-top boxes(STBs), etc.), etc.

Current SON OAM architectures have several disadvantages. For example,the EMS needs to track the addresses of all its managed nodes. Thetracking may include registering Internet protocol (IP) addresses and/orport numbers associated with the managed nodes in a directory within orwithout the EMS. The tracking may also include registering managed nodename and IP address/port number pairs associated with the managed nodesin a database within or without the EMS. Such tracking becomes a majortask when the number of managed nodes increases and when the managednodes become mobile (e.g., acquire new addresses). Furthermore, when theEMS wishes to provide a command and/or information to all its managednodes, the EMS sends the command and/or information, via the domainmanager, individually to each managed node (e.g., one method invocationper each managed node).

SUMMARY

It is an object of the invention to overcome at least some of the abovedisadvantages and to establish channels between a domain manager andmanaged nodes installed in a telecommunication system such that an EMSmay send one command and/or information to the domain manager and thedomain manager may duplicate the command and/or information anddistribute the command and/or information to the managed nodes.

Embodiments described herein may include systems and/or methods thatestablish channels (e.g., command channels, notification channels, etc.)between a domain manager and its managed nodes so that the domainmanager may send commands and/or information to the managed nodes. Forexample, in one embodiment, the systems and/or methods may include amanaged network (e.g., a SON) that includes a domain manager formanaging one or more managed nodes and/or links. When a managed node isinstalled in the managed network, the managed node may register itselfwith the domain manager. The managed node, via the registration, mayidentify itself to the domain manager, and may advise the domain managerabout the managed node's security related parameters, its presence inthe managed network, and the managed node's current operational state(e.g., disabled, enabled, etc.). The registration may also identify themanaged node's notification channel address via which the managed nodemay receive future notifications from the domain manager, and themanaged node's command channel address via which the managed node mayreceive future commands from the domain manager.

In an exemplary embodiment, systems and/or methods described herein mayreceive register request(s) from managed node(s), and may determinemanaged node information based on the register request(s). The systemsand/or methods may establish command channel(s) with the managed node(s)based on the register request(s), and may simultaneously send a commandto the managed node(s) via the command channel(s). The systems and/ormethods may also establish notification channel(s) with the managednode(s) for sending notification(s), and may simultaneously send anotification to the managed node(s) via the notification channel(s). Thesystems and/or methods may further receive cancel registrationrequest(s) from the managed node(s), and may receive registration statusrequest(s) from the managed node(s).

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 depicts a diagram of an exemplary network in which systems and/ormethods described herein may be implemented;

FIG. 2A illustrates exemplary components of a domain manager of thenetwork depicted in FIG. 1;

FIG. 2B depicts exemplary components of a managed node of the networkdepicted in FIG. 1;

FIG. 3 illustrates a diagram of an exemplary portion of the networkdepicted in FIG. 1 and exemplary interactions among components of thenetwork portion;

FIG. 4 depicts a diagram of exemplary elements of a register requestcapable of being provided by the managed node of the network illustratedin FIG. 1;

FIG. 5 illustrates a diagram of exemplary elements of a register statusoperation instruction capable of being provided by the domain manager ofthe network depicted in FIG. 1;

FIG. 6 depicts a diagram of exemplary elements of a notify operationinstruction capable of being provided by the domain manager of thenetwork illustrated in FIG. 1;

FIG. 7 illustrates a diagram of exemplary elements of a cancel requestcapable of being provided by the managed node of the network depicted inFIG. 1;

FIG. 8 depicts a diagram of an exemplary element of a cancel statusoperation instruction capable of being provided by the domain manager ofthe network illustrated in FIG. 1;

FIG. 9 illustrates a diagram of exemplary elements of a registrationstatus request capable of being provided by the managed node of thenetwork depicted in FIG. 1;

FIG. 10 depicts a diagram of an exemplary element of a registrationstatus operation instruction capable of being provided by the domainmanager of the network illustrated in FIG. 1; and

FIGS. 11-17 illustrate flow charts of exemplary processes forestablishing channels between a domain manager and managed nodesaccording to embodiments described herein.

DETAILED DESCRIPTION

The following detailed description refers to the accompanying drawings.The same reference numbers in different drawings may identify the sameor similar elements. Also, the following detailed description does notlimit the invention.

Embodiments described herein may include systems and/or methods thatestablish channels (e.g., command channels and/or notification channels)between a domain manager and managed nodes so that the domain managermay not need to track addresses of the managed nodes and may communicateinformation to the managed nodes via the established channels.

FIG. 1 depicts a diagram of an exemplary network 100 in which systemsand/or methods described herein may be implemented. As illustrated,network 100 may include a domain manager 110 and managed nodes 120interconnected by a network 130. Domain manager 110 and managed nodes120 may connect to network 130 via wired and/or wireless connections. Asingle domain manager, three managed nodes, and a single network havebeen illustrated in FIG. 1 for simplicity. In practice, there may bemore domain managers, managed nodes, and/or networks. Also, in someinstances, a component in network 100 (e.g., one or more of domainmanager 110 and/or managed nodes 120) may perform one or more functionsdescribed as being performed by another component or group of componentsin network 100.

Domain manager 110 may include one or more server entities, or othertypes of computation or communication devices, that gather, process,search, and/or provide information in a manner described herein. Forexample, domain manager 110 may include a computer, a proxy server, acomputer system (e.g., an operational and maintenance (OAM) system, anetwork management system, an enterprise management system, etc.),another type of computation or communication device, a thread or processrunning on one of these devices, and/or an object executable by one ofthese devices. In one embodiment, domain manager 110 may monitor andmanage network elements (e.g., managed nodes 120), may establishchannels with managed nodes 120, and may communicate information tomanaged nodes 120 via the established channels.

Each of managed nodes 120 may include any device capable of receivingtraffic associated with network 100, and capable of being monitoredand/or managed by domain manager 110. For example, each of managed nodes120 may include a computer, a router, a switch, a network interface card(NIC), a hub, a bridge, a gateway, a firewall, an optical add-dropmultiplexer (OADM), a cell phone, a radio base station, a televisionset-top box (STB), some other type of device that processes and/ortransfers traffic, another type of computation or communication device,a thread or process running on one of these devices, and/or an objectexecutable by one of these devices. In one embodiment, each of managednodes 120 may include a node of a telecommunication network.

The term “traffic,” as used herein, is to be broadly construed toinclude any information capable of being provided and/or received bynetwork 100 and/or any component of network 100 (e.g., managed nodes120), such as information associated with operation, administration,maintenance, provisioning, etc. of telecommunication systems, commandsissued by domain manager 110, notifications issued by domain manager110, etc.

Network 130 may include a local area network (LAN), a wide area network(WAN), a metropolitan area network (MAN), an intranet, the Internet, aPublic Land Mobile Network (PLMN), a telephone network, such as thePublic Switched Telephone Network (PSTN) or a cellular telephonenetwork, or a combination of networks. In one exemplary embodiment,network 130 may include a self-organized network (SON), a SON-basedtelecommunication network, a telecommunication network, etc.

FIG. 2A is an exemplary diagram of a device that may correspond todomain manager 110. As illustrated, domain manager 110 may include a bus200, processing logic 205, a main memory 210, a read-only memory (ROM)215, a storage device 220, an input device 225, an output device 230,and/or a communication interface 235. Bus 200 may include a path thatpermits communication among the components of domain manager 110.

Processing logic 205 may include a processor, microprocessor, or othertype of processing logic that may interpret and execute instructions.Main memory 210 may include a random access memory (RAM) or another typeof dynamic storage device that may store information and instructionsfor execution by processing logic 205. ROM 215 may include a ROM deviceor another type of static storage device that may store staticinformation and/or instructions for use by processing logic 205. Storagedevice 220 may include a magnetic and/or optical recording medium andits corresponding drive.

Input device 225 may include a mechanism that permits an operator toinput information to domain manager 110, such as a keyboard, a mouse, apen, a microphone, voice recognition and/or biometric mechanisms, etc.Output device 230 may include a mechanism that outputs information tothe operator, including a display, a printer, a speaker, etc.Communication interface 235 may include any transceiver-like mechanismthat enables domain manager 110 to communicate with other devices and/orsystems. For example, communication interface 235 may include mechanismsfor communicating with another device or system via a network, such asnetwork 130.

As described herein, domain manager 110 may perform certain operationsin response to processing logic 205 executing software instructionscontained in a computer-readable medium, such as main memory 210. Acomputer-readable medium may be defined as a physical or logical memorydevice. The software instructions may be read into main memory 210 fromanother computer-readable medium, such as storage device 220, or fromanother device via communication interface 235. The softwareinstructions contained in main memory 210 may cause processing logic 205to perform processes described herein. Alternatively, hardwiredcircuitry may be used in place of or in combination with softwareinstructions to implement processes described herein. Thus,implementations described herein are not limited to any specificcombination of hardware circuitry and software.

Although FIG. 2A shows exemplary components of domain manager 110, inother implementations, domain manager 110 may contain fewer, different,or additional components than depicted in FIG. 2A. In still otherimplementations, one or more components of domain manager 110 mayperform one or more tasks described as being performed by one or moreother components of domain manager 110.

FIG. 2B is an exemplary diagram of a device that may correspond to oneof managed nodes 120. As illustrated, managed node 120 may includeprocessing logic 240, memory 245, a communication interface 250, and/oran antenna assembly 255.

Processing logic 240 may include a processor, microprocessor, anapplication specific integrated circuit (ASIC), field programmable gatearray (FPGA), or the like. Processing logic 240 may control operation ofmanaged node 120 and its components.

Memory 245 may include a random access memory (RAM), a read only memory(ROM), and/or another type of memory to store data and instructions thatmay be used by processing logic 240.

Communication interface 250 may include any transceiver-like mechanismthat enables managed node 120 to communicate with other devices and/orsystems. Communication interface 250 may include, for example, atransmitter that may convert baseband signals from processing logic 240to radio frequency (RF) signals and/or a receiver that may convert RFsignals to baseband signals. Alternatively, communication interface 250may include a transceiver to perform functions of both a transmitter anda receiver. Communication interface 250 may connect to antenna assembly255 for transmission and/or reception of the RF signals.

Antenna assembly 255 may include one or more antennas to transmit and/orreceive signals (e.g. RF signals) over the air. Antenna assembly 255may, for example, receive RF signals from communication interface 250and transmit them over the air and receive RF signals over the air andprovide them to communication interface 250. In one exemplaryembodiment, for example, communication interface 250 may communicate viaa network (e.g., network 130). Alternatively and/or additionally,antenna assembly 255 may be omitted and communication interface 250 maycommunicate with a network (e.g., network 100) via one or more physicallinks.

As described herein, managed node 120 may perform certain operations inresponse to processing logic 240 executing software instructionscontained in a computer-readable medium, such as memory 245. Acomputer-readable medium may be defined as a physical or logical memorydevice. The software instructions may be read into memory 245 fromanother computer-readable medium or from another device viacommunication interface 250. The software instructions contained inmemory 245 may cause processing logic 240 to perform processes describedherein. Alternatively, hardwired circuitry may be used in place of or incombination with software instructions to implement processes describedherein. Thus, embodiments described herein are not limited to anyspecific combination of hardware circuitry and software.

Although FIG. 2B shows exemplary components of managed node 120, inother embodiments, managed node 120 may contain fewer, different, oradditional components than depicted in FIG. 2B. In still otherembodiments, one or more components of managed node 120 may perform oneor more tasks described as being performed by one or more othercomponents of managed node 120.

FIG. 3 depicts a diagram of an exemplary portion 300 of network 100 andexemplary interactions among components of network portion 300. Asillustrated, network portion 300 may include domain manager 110 and oneof managed nodes 120. Domain manager 110 and managed node 120 mayinclude the features described above in connection with, for example,FIG. 1.

As shown in FIG. 3, managed node 120 may provide a register request 310to domain manager 110. Domain manager 110 may receive register request310, may determine information associated with managed node 120 based onregister request 310, and may use the information from register request310 to perform a registration operation for managed node 120. Forexample, register request 310 may advise domain manager 110 that managednode 120 is connected to the network (e.g., network 100) and is preparedto receive command(s) and/or notification(s) from domain manager 110.Register request 310 may include information identifying managed node120 to domain manager 110, security related information (e.g.,authentication information) associated with managed node 120,information identifying managed node's 120 presence in the network, andinformation associated with an operational state (e.g., disabled,enabled, etc.) of managed node 120. Register request 310 may alsoidentify a notification channel address via which managed node 120 mayreceive future notifications from domain manager 110, and a commandchannel address via which managed node 120 may receive future commandsfrom the domain manager 110. In one embodiment, domain manager 110 mayestablish a notification channel with managed node 120 based on thenotification channel address identified by register request 310. Inanother embodiment, domain manager 110 may establish a command channelwith managed node 120 based on the command channel address identified byregister request 310. Further details of register request 310 areprovided below in connection with, for example, FIG. 4.

Domain manager 110 may identify, register, establish channels with, etc.managed node 120 based on register request 310. In one embodiment,domain manager 110 may store (e.g., in storage device 220) registerrequest 310 and its associated information. Domain manager 110 mayprovide, based on register request 320, a register status operationinstruction 320 to managed node 120, and managed node 120 may receiveregister status operation instruction 320. Register status operationinstruction 320 may include information identifying the registration ofmanaged node 120 (e.g., by domain manager 110), information providing aresult (e.g., success, failure, etc.) associated with the registration,etc. Further details of register status operation instruction 320 areprovided below in connection with, for example, FIG. 5.

Domain manager 110 may provide one or more commands 330 to managed node120, and managed node 120 may receive one or more commands 330. In oneembodiment, domain manager 110 may provide one or more commands 330 tomanaged node 120 via the command channel established based on registerrequest 310 (e.g., via the command channel address). One or morecommands 330 may include information instructing managed node 120 toperform specific functions (e.g., enter into a disabled operationalstate so that managed node may not transfer traffic).

As further shown in FIG. 3, domain manager 110 may provide a notifyoperation instruction 340 to managed node 120, and managed node 120 mayreceive notify operation instruction 340. In one embodiment, domainmanager 110 may provide notify operation instruction 340 to managed node120 via the notification channel established based on register request310. Notify operation instruction 340 may include informationidentifying domain manager 110 issuing notify operation instruction 340,a common message, notification, announcement, and/or instructionbroadcast to all (or some group of) registered managed nodes (e.g.,managed node 120), etc. In one example, notify operation instruction 340may include an announcement that a new software version is available formanaged node 120 to download. Such an announcement may include, forexample, information associated with an address of a software server, asoftware module name, a version number, an availability time, etc. Inother examples, notify operation instruction 340 may include anannouncement that managed node 120 should enter a certain operationalstate, an announcement related to advertisement messages (e.g., ifmanaged node 120 is a STB), etc. Further details of notify operationinstruction 340 are provided below in connection with, for example, FIG.6.

Managed node 120 may provide a cancel request 350 to domain manager 110,and domain manager 110 may receive cancel request 350. Cancel request350 may request that domain manager 110 cancel registration of managednode 120. Cancel request 350 may include information identifying managednode 120, information identifying a registration associated with managednode 120, etc. Further details of cancel request 350 are provided belowin connection with, for example, FIG. 7. Domain manager 110 may provide,based on cancel request 350, a cancel status operation instruction 360to managed node 120, and managed node 120 may receive cancel statusoperation instruction 360. Cancel status operation instruction 360 mayinclude information providing a result (e.g., success, failure, etc.) ofthe registration cancellation requested by cancel request 350, etc.Further details of cancel status operation instruction 360 are providedbelow in connection with, for example, FIG. 8.

As further shown in FIG. 3, managed node 120 may provide a registrationstatus request 370 to domain manager 110, and domain manager 110 mayreceive registration status request 370. Registration status request 370may request registration information (e.g., associated with managed node120) stored in domain manager 110 (e.g., in storage device 220).Registration status request 370 may include information identifyingmanaged node 120, information identifying a registration associated withmanaged node 120, etc. Further details of registration status request370 are provided below in connection with, for example, FIG. 9. Domainmanager 110 may provide, based on registration status request 370, aregistration status operation instruction 380 to managed node 120, andmanaged node 120 may receive registration status operation instruction380. Registration status operation instruction 380 may includeinformation regarding a status (e.g., unknown, active, inactive, etc.)of a registration associated with managed node 120, etc. Further detailsof registration status operation instruction 380 are provided below inconnection with, for example, FIG. 10.

Although FIG. 3 shows exemplary components of network portion 300, inother embodiments, network portion 300 may contain fewer, different, oradditional components than depicted in FIG. 3. In still otherembodiments, one or more components of network portion 300 may performone or more tasks described as being performed by one or more othercomponents of network portion 300.

FIG. 4 illustrates a diagram of exemplary elements of register request310. In one embodiment, register request 310 may be provided by amanaged device (e.g., one of managed nodes 120). In another embodiment,register request 310 may be provided by a managed device (e.g., othermanaged nodes) other than or in addition to one of managed nodes 120. Asillustrated, register request 310 may include a managed node identifierparameter 400, a security parameter 410, a timer parameter 420, anenvironment parameter 430, a command channel address parameter 440, anotification channel address parameter 450, and/or an other informationparameter 460.

Managed node identifier parameter 400 may include information thatidentifies a managed node (e.g., one of managed nodes 120) providingregister request 310. For example, in one embodiment, managed nodeidentifier parameter 400 may include identification information (e.g.,an address) associated with one of managed nodes 120.

Security parameter 410 may include security information associated witha managed node (e.g., one of managed nodes 120) providing registerrequest 310. For example, in one embodiment, security parameter 410 mayinclude authentication information (e.g., a password, an address, etc.)associated with one of managed nodes 120.

Timer parameter 420 may include a value of a timer associated with amanaged node (e.g., one of managed nodes 120) providing register request310. For example, in one embodiment, the value may be provided inseconds, minutes, hours, etc., and may assume a special infinite valuewhen timer parameter 420 is absent or equal to zero. When the value goesto zero, domain manager 110 may consider one of managed nodes 120 to bedisabled, and may terminate a registration associated with one ofmanaged nodes 120 (e.g., may release resources supporting theregistration).

Environment parameter 430 may include information associated with asecurity setting, a name and/or version number of a control program,etc. associated with a managed node (e.g., one of managed nodes 120)providing register request 310.

Command channel address parameter 440 may include information associatedwith an address to establish a command channel to a managed node (e.g.,one of managed nodes 120) providing register request 310. In oneembodiment, domain manager 110 may establish the command channel basedon command channel address parameter 440, and may provide commands,operations, instructions, etc. to the address (e.g., via the commandchannel).

Notification channel address parameter 450 may include informationassociated with an address used to establish a notification channel to amanaged node (e.g., one of managed nodes 120) providing register request310. In one embodiment, domain manager 110 may establish thenotification channel based on notification channel address parameter450, and may provide notifications to the address (e.g., via thenotification channel).

Other information parameter 460 may include other information (e.g., amanufacturer name, a model type, etc.) associated with a managed node(e.g., one of managed nodes 120) providing register request 310.

In one exemplary embodiment, register request 310 may include thefollowing format: register(nodeId, security, timeTick, environment,commandChannelAddress, notifyChannelAddress, otherInfo), where nodeIdmay correspond to managed node identifier parameter 400, security maycorrespond to security parameter 410, timeTick may correspond to timerparameter 420, environment may correspond to environment parameter 430,commandChannelAddress may correspond to command channel addressparameter 440, notifyChannelAddress may correspond to notificationchannel address parameter 450, and otherInfo may correspond to otherinformation parameter 460.

Although FIG. 4 shows exemplary elements of register request 310, inother embodiments, register request 310 may contain fewer, different, oradditional elements than depicted in FIG. 4.

FIG. 5 depicts a diagram of exemplary elements of register statusoperation instruction 320. In one embodiment, register status operationinstruction 320 may be provided by a managing device (e.g., domainmanager 110). In another embodiment, register status operationinstruction 320 may be provided by a managing device (e.g., other domainmanagers) other than or in addition to domain manager 110. Asillustrated, register status operation instruction 320 may include aregistration identifier parameter 500 and/or a registration statusparameter 510.

Registration identifier parameter 500 may include information thatidentifies a registration associated with a managed node (e.g., one ofmanaged nodes 120) providing register request 310. For example, in oneembodiment, registration identifier parameter 500 may includeidentification information (e.g., one or more names, one or morenumbers, etc.) of a registration associated with managed node 120. Inone exemplary embodiment, registration identifier parameter 500 mayinclude a specific format (e.g., registrationId).

Registration status parameter 510 may include information thatidentifies results (e.g., successful, unsuccessful, etc.) of aregistration associated with a managed node (e.g., one of managed nodes120) providing register request 310. In one example, the identificationinformation may be created by domain manager 110 upon receipt ofregister request 310. In one exemplary embodiment, registration statusparameter 510 may include a specific format (e.g., Status).

Although FIG. 5 shows exemplary elements of register status operationinstruction 320, in other embodiments, register status operationinstruction 320 may contain different or additional elements thandepicted in FIG. 5.

FIG. 6 illustrates a diagram of exemplary elements of notify operationinstruction 340. In one embodiment, notify operation instruction 340 maybe provided by a managing device (e.g., domain manager 110). In anotherembodiment, notify operation instruction 340 may be provided by amanaging device (e.g., other domain managers) other than or in additionto domain manager 110. As illustrated, notify operation instruction 340may include a domain manager identifier parameter 600 and/or a dataparameter 610.

Domain manager identifier parameter 600 may include information thatidentifies a managing device (e.g., domain manager 110) providing notifyoperation instruction 340. For example, in one embodiment, domainmanager identifier parameter 600 may include information (e.g., a name,an identification, a number, an address, etc.) identifying domainmanager 110 as the device providing notify operation instruction 340.

Data parameter 610 may include messages, instructions, announcements,etc. provided by a managing device (e.g., domain manager 110) providingnotify operation instruction 340. For example, in one embodiment, dataparameter 610 may include an announcement regarding a new softwaredownload (e.g., for managed nodes 120), an announcement that managednodes 120 should enter a certain operational state, mass advertisementmessages, etc.

In one exemplary embodiment, notify operation instruction 340 mayinclude the following format: notify(dmId, Data), where dmId maycorrespond to domain manager identifier parameter 600, and Data maycorrespond to data parameter 610.

Although FIG. 6 shows exemplary elements of notify operation instruction340, in other embodiments, notify operation instruction 340 may containfewer, different, or additional elements than depicted in FIG. 6.

FIG. 7 depicts a diagram of exemplary elements of cancel request 350. Inone embodiment, cancel request 350 may be provided by a managed device(e.g., one of managed nodes 120). In another embodiment, cancel request350 may be provided by a managed device (e.g., other managed nodes)other than or in addition to one of managed nodes 120. As illustrated,cancel request 350 may include a managed node identifier parameter 700and/or a registration identifier parameter 710.

Managed node identifier parameter 700 may include information thatidentifies a managed node (e.g., one of managed nodes 120) providingcancel request 350. For example, in one embodiment, managed nodeidentifier parameter 700 may include identification information (e.g.,an address) associated with one of managed nodes 120.

Registration identifier parameter 710 may include information thatidentifies a registration (e.g., to be canceled) that is associated witha managed node (e.g., one of managed nodes 120) providing cancel request350. For example, in one embodiment, registration identifier parameter710 may include identification information (e.g., one or more names, oneor more numbers, etc.) of a registration associated with managed node120. Managed node 120 may obtain such identification information from,for example, register status operation instruction 320.

In one exemplary embodiment, cancel request 350 may include thefollowing format: cancel(nodeId, registrationId), where nodeId maycorrespond to managed node identifier parameter 700, and registrationIdmay correspond to registration identifier parameter 710.

Although FIG. 7 shows exemplary elements of cancel request 350, in otherembodiments, cancel request 350 may contain fewer, different, oradditional elements than depicted in FIG. 7.

FIG. 8 illustrates a diagram of an exemplary element of cancel statusoperation instruction 360. In one embodiment, cancel status operationinstruction 360 may be provided by a managing device (e.g., domainmanager 110). In another embodiment, cancel status operation instruction360 may be provided by a managing device (e.g., other domain managers)other than or in addition to domain manager 110. As illustrated, cancelstatus operation instruction 360 may include a cancellation statusparameter 800.

Cancellation status parameter 800 may include information thatidentifies results (e.g., successful, unsuccessful, etc.) of aregistration cancellation associated with a managed node (e.g., one ofmanaged nodes 120) providing cancel request 350. In one exemplaryembodiment, cancellation status parameter 800 may include a specificformat (e.g., Status).

Although FIG. 8 shows exemplary elements of cancel status operationinstruction 360, in other embodiments, cancel status operationinstruction 360 may contain different or additional elements thandepicted in FIG. 8. For example, cancel status operation instruction 360may include a registration identifier that identifies the registrationfor which a cancellation status is being provided.

FIG. 9 depicts a diagram of exemplary elements of registration statusrequest 370. In one embodiment, registration status request 370 may beprovided by a managed device (e.g., one of managed nodes 120). Inanother embodiment, registration status request 370 may be provided by amanaged device (e.g., other managed nodes) other than or in addition toone of managed nodes 120. As illustrated, registration status request370 may include a managed node identifier parameter 900 and/or aregistration identifier parameter 910.

Managed node identifier parameter 900 may include information thatidentifies a managed node (e.g., one of managed nodes 120) providingregistration status request 370. For example, in one embodiment, managednode identifier parameter 900 may include identification information(e.g., an address) associated with one of managed nodes 120.

Registration identifier parameter 910 may include information thatidentifies a registration (e.g., whose status is sought) that isassociated with a managed node (e.g., one of managed nodes 120)providing registration status request 370. For example, in oneembodiment, registration identifier parameter 910 may includeidentification information (e.g., one or more names, one or morenumbers, etc.) of a registration associated with managed node 120.

In one exemplary embodiment, registration status request 370 may includethe following format: getRegistrationStatus(nodeId, registrationId),where nodeId may correspond to managed node identifier parameter 900,and registrationId may correspond to registration identifier parameter910.

Although FIG. 9 shows exemplary elements of registration status request370, in other embodiments, registration status request 370 may containfewer, different, or additional elements than depicted in FIG. 9.

FIG. 10 illustrates a diagram of an exemplary element of registrationstatus operation instruction 380. In one embodiment, registration statusoperation instruction 380 may be provided by a managing device (e.g.,domain manager 110). In another embodiment, registration statusoperation instruction 380 may be provided by a managing device (e.g.,other domain managers) other than or in addition to domain manager 110.As illustrated, registration status operation instruction 380 mayinclude a registration status parameter 1000.

Registration status parameter 1000 may include information thatidentifies a status (e.g., unknown, active, inactive, etc.) of aregistration associated with a managed node (e.g., one of managed nodes120) providing registration status request 370. In one exemplaryembodiment, registration status parameter 100 may include a specificformat (e.g., Status).

Although FIG. 10 shows exemplary elements of registration statusoperation instruction 380, in other embodiments, registration statusoperation instruction 380 may contain different or additional elementsthan depicted in FIG. 10. For example, registration status operationinstruction 380 may include a registration identifier that identifiesthe registration for which a status is being provided.

FIGS. 11-16 depict flow charts of an exemplary process 1100 forestablishing channels between domain manager 110 and managed nodes 120according to embodiments described herein. In one embodiment, process1100 may be performed by hardware and/or software components of domainmanager 110. In other embodiments, process 1100 may be performed byhardware and/or software components of domain manager 110 in combinationwith hardware and/or software components of another device or group ofdevices (e.g., communicating with domain manager 110).

As illustrated in FIG. 11, process 1100 may begin with receipt ofregister request(s) from managed node(s) (block 1110), and determinationof managed node information based on the register request(s) (block1120). For example, in embodiments described above in connection withFIG. 3, domain manager 110 may receive register request 310, and maydetermine information associated with managed node 120 based on registerrequest 310. In one example, register request 310 may advise domainmanager 110 that managed node 120 is connected to the network and isprepared to receive command(s) and/or notification(s) from domainmanager 110. Register request 310 may include information identifyingmanaged node 120 to domain manager 110, security related informationassociated with managed node 120, information identifying managed node's120 presence in the network, and information associated with anoperational state of managed node 120. Domain manager 110 may storeinformation associated with register request 310 (e.g., in a databaseprovided in storage device 220).

Returning to FIG. 11, command channel(s) for sending command(s) may beestablished with the managed node(s) based on the register request(s)(block 1130), and a command may be simultaneously sent to the managednode(s) via the command channel(s) (block 1140). For example, inembodiments described above in connection with FIG. 3, domain manager110 may receive register request 310 that may identify a command channeladdress via which domain manager 110 may establish a command channel tomanaged node 120 for sending commands. Domain manager 110 may provideone or more commands 330 to managed node 120 via the command channelestablished based on register request 310 (e.g., via the command channeladdress). One or more commands 330 may include information instructingmanaged node 120 to perform specific functions (e.g., enter into adisabled operational state so that managed node may not transfertraffic). In one example, domain manager 110 may simultaneously provideone or more commands all (or some group of) managed nodes 120 via thecommand channels established between domain manager 110 and managednodes 120.

As further shown in FIG. 11, notification channel(s) for sendingnotification(s) may be established based on the register request(s)(block 1150), and a notification may be simultaneously sent to themanaged node(s) via the notification channel(s) (block 1160). Forexample, in embodiments described above in connection with FIG. 3,domain manager 110 may receive register request 310 that may identify anotification channel address via which domain manager 110 may establisha notification channel to managed node 120 for sending notifications.Domain manager 110 may provide one or more notifications (e.g., notifyoperation instruction 340) to managed node 120 via the notificationchannel established based on register request 310 (e.g., via thenotification channel address). Notify operation instruction 340 mayinclude information identifying domain manager 110 issuing notifyoperation instruction 340, a common message, notification, announcement,and/or instruction broadcast to all (or some group of) registeredmanaged nodes (e.g., managed node 120), etc. In one example, domainmanager 110 may simultaneously provide one or more notifications to all(or some group of) managed nodes 120 via the notification channelsestablished between domain manager 110 and managed nodes 120.

Returning to FIG. 11, cancel registration request(s) may be receivedfrom the managed node(s) (block 1170), and/or registration statusrequest(s) may be received from the managed node(s) (block 1180). Forexample, in embodiments described above in connection with FIG. 3,managed node 120 may provide cancel request 350 to domain manager 110,and domain manager 110 may receive cancel request 350. Cancel request350 may request that domain manager 110 cancel registration of managednode 120. Managed node 120 may provide registration status request 370to domain manager 110, and domain manager 110 may receive registrationstatus request 370. Registration status request 370 may requestregistration information (e.g., associated with managed node 120) storedin domain manager 110 (e.g., in storage device 220).

Process block 1110 may include the process blocks depicted in FIG. 12.As illustrated in FIG. 12, process block 1110 may include one or more ofreceiving managed node identifier parameter(s) via the registerrequest(s) (block 1200), receiving security parameter(s) via theregister request(s) (block 1210), and/or receiving timer parameter(s)via the register request(s) (block 1220). For example, in embodimentsdescribed above in connection with FIG. 4, register request 310 may bereceived by domain manager 110, and may include managed node identifierparameter 400, security parameter 410, and/or timer parameter 420.Managed node identifier parameter 400 may include identificationinformation (e.g., an address) associated with one of managed nodes 120.Security parameter 410 may include authentication information (e.g., apassword, an address, etc.) associated with one of managed nodes 120.Timer parameter 420 may include a value of a timer associated with amanaged node (e.g., one of managed nodes 120) providing register request310.

As further shown in FIG. 12, process block 1110 may include one or moreof receiving environment parameter(s) via the register request(s) (block1230), receiving command channel address parameter(s) via the registerrequest(s) (block 1240), and/or receiving notification channel addressparameter(s) via the register request(s) (block 1250). For example, inembodiments described above in connection with FIG. 4, register request310 may be received by domain manager 110, and may include environmentparameter 430, command channel address parameter 440, and/or anotification channel address parameter 450. Environment parameter 430may include information associated with a security setting, a nameand/or version number of a control program, etc. associated with one ofmanaged nodes 120. Command channel address parameter 440 may includeinformation associated with an address used to establish a commandchannel to a one of managed nodes 120. Notification channel addressparameter 450 may include information associated with an address used toestablish a notification channel to one of managed nodes 120.

Process block 1130/1150 may include the process blocks depicted in FIG.13. As illustrated in FIG. 13, process block 1130/1150 may includeestablishing the command channel(s) based on command channel addressparameter(s) provided in the register request(s) (block 1300), andestablishing the notification channel(s) based on notification channeladdress parameter(s) provided in the register request(s) (block 1310).For example, in embodiments described above in connection with FIG. 4,register request 310 may be received by domain manager 110, and mayinclude command channel address parameter 440 and/or a notificationchannel address parameter 450. Command channel address parameter 440 mayinclude information associated with an address used to establish acommand channel to one of managed nodes 120. In one example, domainmanager 110 may establish the command channel based on command channeladdress parameter 440. Notification channel address parameter 450 mayinclude information associated with an address used to establish anotification channel to one of managed nodes 120. In one example, domainmanager 110 may establish the notification channel based on notificationchannel address parameter 450.

Process block 1160 may include the process blocks depicted in FIG. 14.As illustrated in FIG. 14, process block 1160 may include providingdomain manager identifier parameter(s), via the notification(s), to themanaged node(s) (block 1400), and providing message(s) and/orinstruction(s), via the notification(s), to the managed node(s) (block1410). For example, in embodiments described above in connection withFIG. 6, domain manager 110 may provide, to managed node 120, notifyoperation instruction 340 that may include domain manager identifierparameter 600 and/or data parameter 610. Domain manager identifierparameter 600 may include information that identifies a managing device(e.g., domain manager 110) providing notify operation instruction 340.Data parameter 610 may include messages, instructions, announcements,etc. provided by a managing device (e.g., domain manager 110) providingnotify operation instruction 340. In one example, data parameter 610 mayinclude an announcement regarding a new software download (e.g., formanaged nodes 120), an announcement that managed nodes 120 should entera certain operational state, mass advertisement messages, etc.

Process block 1170 may include the process blocks depicted in FIG. 15.As illustrated in FIG. 15, process block 1170 may include receivingmanaged node identifier parameter(s) via the cancel registrationrequest(s) (block 1500), receiving registration identifier parameter(s)via the cancel registration request(s) (block 1510), cancelingregistration(s), based on the parameter(s), of the managed node(s)providing the cancel registration request(s) (block 1520), and providinga cancel status (block 1530). For example, in embodiments describedabove in connection with FIGS. 7 and 8, domain manager 110 may receive,from managed node 120, cancel request 350 that may include managed nodeidentifier parameter 700 and/or registration identifier parameter 710.Managed node identifier parameter 700 may include information thatidentifies one of managed nodes 120 providing cancel request 350.Registration identifier parameter 710 may include information thatidentifies a registration (e.g., to be canceled) that is associated withone of managed nodes 120 providing cancel request 350. In one example,domain manager 110 may cancel a registration (e.g., identified byregistration identifier parameter 710) associated with one of manageddevices 120 (e.g., identified by managed node identifier 700) providingcancel request 350. Domain manager 110 may provide cancel statusoperation instruction 360 (e.g., include information that identifiesresults, such as successful, unsuccessful, etc. of a registrationcancellation) to a managed node (e.g., one of managed nodes 120)providing cancel request 350.

Process block 1180 may include the process blocks depicted in FIG. 16.As illustrated in FIG. 16, process block 1180 may include receivingmanaged node identifier parameter(s) via the registration statusrequest(s) (block 1600), receiving registration identifier parameter(s)via the registration status request(s) (block 1610), and providingregistration status, based on the parameter(s), of the managed node(s)providing the registration status request(s) (block 1620). For example,in embodiments described above in connection with FIG. 9, domain manager110 may receive, from managed node 120, registration status request 370that may include managed node identifier parameter 900 and/orregistration identifier parameter 910. Managed node identifier parameter900 may include information that identifies one of managed nodes 120providing registration status request 370. Registration identifierparameter 910 may include information that identifies a registration(e.g., whose status is sought) that is associated with one of managednodes 120 providing registration status request 370. In one example,domain manager 110 may provide a status of a registration (e.g.,identified by registration identifier parameter 910) associated with oneof managed devices 120 (e.g., identified by managed node identifier 900)providing registration status request 370.

FIG. 17 depicts a flow chart of an exemplary process 1700 forestablishing channels between domain manager 110 and managed nodes 120according to embodiments described herein. In one embodiment, process1700 may be performed by hardware and/or software components of managednode 120. In other embodiments, process 1700 may be performed byhardware and/or software components of managed node 120 in combinationwith hardware and/or software components of another device or group ofdevices (e.g., communicating with managed node 120).

As illustrated in FIG. 17, process 1700 may begin with providing aregister request to a domain manager (block 1710), and receiving one ormore commands from the domain manager via a command channel establishedwith the domain manager based on the register request (block 1720). Forexample, in embodiments described above in connection with FIG. 3,managed node 120 may provide register request 310 to domain manager 120(e.g., when managed node 120 is installed in network 100 and initiated,automatically, etc.). Register request 310 may advise domain manager 110that managed node 120 is connected to the network and is prepared toreceive command(s) and/or notification(s) from domain manager 110.Register request 310 may identify a command channel address via whichmanaged node 120 may receive future commands from the domain manager110. Domain manager 110 may establish a command channel with managednode 120 based on the command channel address identified by registerrequest 310. Domain manager 110 may provide one or more commands 330 tomanaged node 120 via the command channel established based on registerrequest 310 (e.g., via the command channel address).

As further shown in FIG. 17, one or more notifications may be receivedfrom the domain manager via a notification channel established with thedomain manager based on the register request (block 1730). For example,in embodiments described above in connection with FIG. 3, managed node120 may provide, to domain manager, register request 310 that mayidentify a notification channel address via which managed node 120 mayreceive future notifications from domain manager 110. Domain manager 110may establish a notification channel with managed node 120 based on thenotification channel address identified by register request 310. Domainmanager 110 may provide one or more notifications (e.g., notifyoperation instruction 340) to managed node 120 via the notificationchannel established based on register request 310 (e.g., via thenotification channel address).

Returning to FIG. 17, a cancel registration request may be provided tothe domain manager (block 1740), a registration status request may beprovided to the domain manager (block 1750), and/or registration statusmay be received from the domain manager based on the registration statusrequest (block 1760). For example, in embodiments described above inconnection with FIG. 3, managed node 120 may provide cancel request 350to domain manager 110 (e.g., automatically when managed node 120 is tobe disabled, in response to an event, when a user wished to disablemanaged node 120, etc.). Cancel request 350 may request that domainmanager 110 cancel registration of managed node 120. Managed node 120may provide registration status request 370 to domain manager 110 (e.g.,periodically, automatically, when a user of managed node wishes todetermine registration status, in response to an event, etc.).Registration status request 370 may request registration information(e.g., associated with managed node 120) stored in domain manager 110(e.g., in storage device 220). Domain manager 110 may provide, based onregistration status request 370, registration status operationinstruction 380 to managed node 120, and managed node 120 may receiveregistration status operation instruction 380. Registration statusoperation instruction 380 may include information regarding a status(e.g., unknown, active, inactive, etc.) of a registration associatedwith managed node 120, etc.

Embodiments described herein may include systems and/or methods thatestablish channels (e.g., command channels and/or notification channels)between a domain manager and managed nodes so that the domain managermay not need to track addresses of the managed nodes and may communicateinformation to the managed nodes via the established channels.

Embodiments described herein may provide a variety of advantages. Forexample, embodiments described herein may eliminate the need for thedomain manager to keep track of the addresses of the managed nodes, andmay provide for rapid dissemination of information (e.g., notifications,announcements, advertisements, commands, etc.) from the domain managerto a large number of managed nodes via the established channels (e.g.,command channels and/or notification channels).

The foregoing description of embodiments provides illustration anddescription, but is not intended to be exhaustive or to limit theinvention to the precise form disclosed. Modifications and variationsare possible in light of the above teachings or may be acquired frompractice of the invention. For example, while series of blocks have beendescribed with regard to FIGS. 11-17, the order of the blocks may bemodified in other embodiments. Further, non-dependent blocks may beperformed in parallel.

It should be emphasized that the term “comprises/comprising” when usedin this specification is taken to specify the presence of statedfeatures, integers, steps or components but does not preclude thepresence or addition of one or more other features, integers, steps,components or groups thereof.

It will be apparent that exemplary embodiments, as described above, maybe implemented in many different forms of software, firmware, andhardware in the embodiments illustrated in the figures. The actualsoftware code or specialized control hardware used to implement theseaspects should not be construed as limiting. Thus, the operation andbehavior of the aspects were described without reference to the specificsoftware code—it being understood that software and control hardwarecould be designed to implement the aspects based on the descriptionherein.

Further, certain portions of the invention may be implemented as “logic”that performs one or more functions. The logic may include hardware,such as an application specific integrated circuit, a field programmablegate array, a processor, or a microprocessor, or a combination ofhardware and software.

Even though particular combinations of features are recited in theclaims and/or disclosed in the specification, these combinations are notintended to limit the invention. In fact, many of these features may becombined in ways not specifically recited in the claims and/or disclosedin the specification.

No element, block, or instruction used in the present application shouldbe construed as critical or essential to the invention unless explicitlydescribed as such. Also, as used herein, the article “a” is intended toinclude one or more items. Where only one item is intended, the term“one” or similar language is used. Further, the phrase “based on” isintended to mean “based, at least in part, on” unless explicitly statedotherwise.

1. A method, performed by a device associated with a network,comprising: receiving a register request from a managed node connectedto the network, the register request requesting registration of themanaged node; establishing a command channel, for sending one or morecommands, with the managed node based on the register request;establishing a notification channel, for sending one or morenotifications, with the managed node based on the register request;receiving, from the managed node, a request to cancel a registration ofthe managed node; canceling the registration based on the cancelrequest; and providing a status of the cancellation of the registrationto the managed node.
 2. The method of claim 1, where receiving aregister request comprises at least one of: receiving, via the registerrequest, identification information associated with the managed node;receiving, via the register request, security information associatedwith the managed node via the register request; receiving, via theregister request, registration time information associated with themanaged node; receiving, via the register request, a command channeladdress for establishing the command channel; or receiving, via theregister request, a notification channel address for establishing thenotification channel.
 3. The method of claim 1, further comprising:using information from the register request to perform a registrationoperation for the managed node.
 4. The method of claim 1, furthercomprising: establishing the command channel based on a command channeladdress included in the register request; and establishing thenotification channel based on a notification channel address included inthe register request.
 5. The method of claim 1, further comprising atleast one of: sending one or more commands to the managed node via thecommand channel; or sending one or more notifications to the managednode via the notification channel.
 6. The method of claim 5, wheresending one or more notifications comprises: providing, to the managednode and via the one or more notifications, information identifying thedevice; and providing, to the managed node and via the one or morenotifications, one of a message, an instruction, or an announcement. 7.The method of claim 1, where receiving, from the managed node, a requestto cancel comprises: receiving, via the cancel request, informationidentifying the managed node; and receiving, via the cancel request,information identifying the registration of the managed node.
 8. Themethod of claim 1, further comprising: receiving, from the managed node,a request for status information associated with a registration of themanaged node, the request including information identifying the managednode, and information identifying the registration of the managed node;and providing status information associated with the identifiedregistration based on the request for status information.
 9. A deviceassociated with a network, comprising: processing logic to: receive aregister request from a managed node connected to the network, theregister request requesting registration of the managed node, establisha command channel and a notification channel with the managed node basedon the register request, send one or more commands to the managed nodevia the command channel when established, and send one or morenotifications to the managed node via the notification channel whenestablished.
 10. The device of claim 9, where the device comprises adomain manager.
 11. The device of claim 9, where the managed nodecomprises a self-organized network (SON)-based managed node.
 12. Thedevice of claim 9, where the register request comprises at least one of:identification information associated with the managed node, a commandchannel address for establishing the command channel, or a notificationchannel address for establishing the notification channel.
 13. Thedevice of claim 9, where the processing logic is further configured to:establish the command channel based on a command channel addressincluded in the register request, and establish the notification channelbased on a notification channel address included in the registerrequest.
 14. The device of claim 9, where the processing logic isfurther configured to: provide, to the managed node and via the one ormore notifications, information identifying the device, and provide, tothe managed node and via the one or more notifications, one of amessage, an instruction, or an announcement.
 15. The device of claim 9,where the processing logic is further configured to: receive, from themanaged node, a request to cancel a registration of the managed node,cancel the registration based on the cancel request, and provide astatus of the cancellation of the registration to the managed node. 16.The device of claim 15, where the processing logic is further configuredto: receive, via the cancel request, information identifying the managednode, receive, via the cancel request, information identifying theregistration of the managed node.
 17. The device of claim 9, where theprocessing logic is further configured to: receive, from the managednode, a request for status information associated with the registrationof the managed node, the status request including informationidentifying the managed node, and information identifying theregistration of the managed node, and provide status informationassociated with the identified registration based on the status request.18. A method, performed by a device associated with a network,comprising: receiving a plurality of register requests from a pluralityof managed nodes connected to the network, the plurality of registerrequests requesting registration of the plurality of managed nodes;establishing a plurality of command channels with the plurality ofmanaged nodes based on the plurality of register requests; sending,simultaneously, a single command to the plurality of managed nodes viathe plurality of command channels; establishing a plurality ofnotification channels with the plurality of managed nodes based on theplurality of register requests; and sending, simultaneously, a singlenotification to the plurality of managed nodes via the plurality ofnotification channels.